KR101993580B1 - Solar photovoltaic led street light - Google Patents

Abstract

The present invention relates to a solar photovoltaic LED street light. To adjust an angle of a solar module in various ways according to an incident angle of the sunlight and keep a direction of irradiation of an LED lamp module even when an angle of the solar module is adjusted, a lamp fixing unit protruding in front of a body is mounted on a lower part. At the upper part of the lamp fixing unit, an angle adjustment module capable of adjusting the angle of the solar module is provided.

Description

SOLAR PHOTOVOLTAIC LED STREET LIGHT}

[0001] The present invention relates to a solar power LED streetlight, and more particularly, to a solar power LED streetlight capable of variously adjusting the angle of the solar panel according to the angle of incidence of sunlight and maintaining the irradiation direction of the LED lamp constant Solar power LED street light.

In general, streetlights are installed around roads, parks, and facilities to illuminate certain places beyond a certain level after sunset.

The conventional street lamp uses electric power supplied from a power source through a cable and electric pole as a power source, so that a cable for power transmission must be installed to a place where the street light is installed, so that the initial facility cost is excessively increased, There has been a problem that it must be confirmed from time to time. Of course, there has been proposed a street light device using solar light that can solve the power supply problem of the conventional street light and self-procure electric power.

As an example of such a street light device using solar light, Japanese Patent Registration No. 10-1081555 (Reference 1) has been proposed. This relates to a photovoltaic power generation LED streetlight, which mainly includes a support column, an inspection pipe, an LED substrate, a connection pipe, a heat pipe, a solar battery plate, a storage battery, and an inverter. However, the solar cell plate constituting the streetlight device of the reference 1 has a structure in which it is fitted inwardly from the top of the heat-radiating pipe and fixed by bolts formed on the upper side, which makes it impossible to adjust the direction, which causes inefficiency of electric production.

On the other hand, the problem of the LED street lamp proposed in Reference 1 can be partially eliminated through the registration of Patent No. 10-1953119 (Reference 2). Reference 2 is directed to a solar LED streetlight system with integrated modularization and charging functions, in which a solar module, a lamp unit, a controller and a battery unit are respectively assembled to the inside of the frame chassis, The controller and the battery unit are each made of a module and are assembled to the inside of the frame chassis to complete the head part for the LED streetlight connected to the upper end of the support. The head part for the LED streetlight is connected Is proposed.

However, the headlight unit of Reference 2 has a structure capable of rotating only up and down with respect to one end, but it is impossible to rotate horizontally, and there is a limitation in adjusting the angle to an optimal position according to the sun altitude.

In addition, since the solar module and the lamp unit are fixed together in the frame chassis of the street lamp head of Reference 2, the direction of the lamp unit is also adjusted when adjusting the angle of the solar module, There is a problem in that the structure of the lamp unit is also complicated because the lamp unit further includes an angle adjusting means.

Reference 1: Registration No. 10-1081555 Reference 2: Registration No. 10-1953119

Accordingly, it is an object of the present invention to provide a solar power LED streetlight capable of varying the angle of the solar module according to the angle of incidence of sunlight.

Particularly, the present invention provides a solar power LED streetlight having a solar module on the upper side of a streetlight body provided with an LED lamp, and capable of maintaining the irradiation direction of the LED module constant even when the angle of the solar module is adjusted have.

In order to solve such a technical problem,

1. A solar power LED streetlight including a solar cell module mounted on a main body of the main body and an LED lamp module provided on the main body and turned on by a power generated by the solar cell module, An angle adjusting module capable of adjusting the angle of the solar module is provided on the upper portion of the lamp fixing part, The angle adjustment module includes a first link member having a lower end fixed by the tightening bolt to the lamp fixing portion, a first link member hinged at one end to the upper end of the first link member, And a plurality of light emitting diodes (LEDs).

At this time, the lamp fixing part is formed with a support hole penetrating up and down to penetrate and supporting the fastening bolt. On the upper surface of the lamp fixing part, the supporting part protrudes upward along the edge of the supporting hole, 1 supporting teeth are formed; The first link member has a spring insertion portion into which a top portion of a compression spring for pressing the first link member upward is inserted, and a female screw portion in which the fastening bolt is screwed is formed at the center of the spring insertion portion And a second supporting saw tooth engaging with the first supporting saw tooth is formed at the lower end of the body.

In addition, the support portion may further include a spring support groove for supporting a lower portion of the compression spring, and the first link member may prevent the spring insertion portion of the body from interfering with the inner circumferential surface of the spring insertion portion when the compression spring is inserted And a cylindrical guide capable of wrapping around the outer peripheral surface of the compression spring is inserted.

In addition, a first support protrusion protrudes from an upper end of the body of the first link member; Wherein the second link member comprises a module fixing portion to which the solar module is fixed and a second support protrusion protruding from one end of the module fixing portion and brought into close contact with the first support portion of the first link member; And the first and second support protrusions are hinged by a hinge bolt.

At this time, a first hinge hole is formed at the center of the first supporting protrusion, a third supporting tooth is formed on the other surface of the first supporting protrusion along the edge of the first hinge hole, A second hinge hole corresponding to the first hinge hole of the first supporting protrusion is formed at the center of the second supporting protrusion. On one surface of the second supporting protrusion, a fourth supporting saw tooth is formed along the edge of the second hinge hole. Lt; / RTI > The hinge bolts penetrate through the first and second hinge holes of the first and second support protrusions and are screwed to the hinge nuts so that the third and fourth support teeth are engaged with each other.

The main body includes a battery for storing a power generated by the photovoltaic module, and a control panel for controlling the charging power stored in the battery and supplying the power to the LED lamp module. A plurality of heat dissipating fins for emitting heat generated when the LED lamp module is turned on are formed on the upper surface of the plate-shaped lamp fixing portion protruding forward; The solar cell module has a structure in which a plurality of solar cells are supported on an upper surface of a support frame, and the solar cell is formed in a convex shape at its center portion so as to increase solar light condensing efficiency.

According to the present invention, the operator can adjust the angle of the solar module variously according to the angle of incidence of sunlight through the adjustment of the angle adjusting module provided in the main body in which the LED lamp module is mounted.

Particularly, according to the present invention, since the angle of the solar module can be variously adjusted after the initial installation of the solar power LED streetlight, the angle of illumination of the LED module is not changed even when the angle of the solar module is required due to seasonal changes, The angle adjustment of the optical module is convenient.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing the installation structure of a solar power LED streetlight according to the present invention; FIG.
2 is a general exploded view of a solar power LED streetlight according to the present invention.
3 is an exploded view of a main body of a solar power LED streetlight according to the present invention.
4 is a view for explaining a link connection structure of a solar power LED streetlight according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments. It is to be understood, however, that the invention is not intended to be limited to the particular forms disclosed, but on the contrary, is intended to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

1 to 4, a photovoltaic power LED street light 100 according to the present invention includes a main body 110 fixed to a streetlight post 10, and a main body 110 provided on the main body 110 to condense solar light An LED lamp module 130 integrally installed to irradiate light downward to the main body 110 and a solar battery module 120 installed in the main body 110 to supply power to the solar cell module 120 And a control panel 150 for driving the LED lamp module 130 by controlling the charging power stored in the battery 140. [

The constituent parts of the present invention will be described in detail below.

The street lamp post 10 is formed in a columnar shape and is installed upward on the ground. The main body 110 is installed on an upper end of the street lamp post 10.

Of course, the street lamp post 10 may be formed in various shapes such as a rectangular column, a hexagonal column, and an octagonal column in addition to a columnar shape, and may be formed in a vertical shape or a curved shape depending on an installation environment, It is preferable that it is made of a metal material so as to maintain firmness.

The main body 110 is fixed at an appropriate position of the street lamp post 10 and is preferably fixedly coupled to a fixed protrusion 12 fixed to the upper end of the street lamp post 10. The body 110 has a receiving portion 112 formed at the center of the body 111 to house the battery 140 and the control panel 150. The main body 110 has a structure in which the upper portion of the body 111 is opened to expose the receiving portion 112 and a lid 114 is provided on the upper side of the receiving portion 112 to prevent rainwater, Can be fixed with screws or the like.

A fitting protrusion 116 having a fitting groove 116a for fitting the fixing protrusion 12 of the lamp post 10 protrudes from a rear end of the main body 110 so that a fastening means 116c, The main body 110 can be firmly fixed to the lamp post 10 by passing through the fixing hole 116b formed on the surface of the fixing part 116 and coupling the fixing protrusion 12 to the fixing protrusion 12.

A lamp fixing part 118 horizontally extends and protrudes from the front of the body 111 of the main body 110 and an LED lamp module 130 is mounted below the lamp fixing part 118.

Here, the LED lamp module 130 has a known structure in which a plurality of LED lamps are mounted on a printed circuit board, and the LED lamp module 130 irradiates light downward. The outside of the LED lamp module 130 is covered with a transparent lamp cover 132 to prevent external rainwater or the like from flowing into the LED lamp module 130 and being damaged. Of course, the lamp cover 132 is made of a transparent material having a central lower part and is made of a transparent material so that the LED lamp of the LED lamp module 130 functions to diffuse light when turned on, It is also possible.

The lamp cover 132 is fixedly attached to the lower surface of the lamp fixing part 118 and is fastened to the lower surface of the lamp fixing part 118 by fastening means 135 such as a screw, do.

The LED lamp preferably uses monochromatic LEDs for traveling on a road or for guiding walking. However, the LED lamps may be composed of multi-color LEDs so that two or more colors may be mixed or converted with a time difference.

The main body 110 may be made of various materials such as a metal material or a synthetic resin so as to protect the battery 140, the control panel 150, and the LED lamp module 130 for a long period of time under unfavorable external conditions.

In particular, a plurality of radiating fins 117 are formed on the upper surface of the plate-like lamp fixing part 118 which horizontally protrudes to the front of the main body 110 to quickly release the heat generated when the LED lamp module 130 is lit, It is possible to prevent the module 130 from being damaged due to deterioration or the like. For this purpose, the lamp fixing part 118, on which the radiating fins 117 are formed, is preferably made entirely of aluminum.

A solar module 120 for collecting solar light and generating electric power is provided on the upper side of the main body 110 so as to be spaced apart.

At this time, the solar module 120 has a structure in which a plurality of solar cells 121 as a basic unit of the solar cell are supported on the upper surface of the support frame 122, It is preferable to use a structure in which the central portion is high and the edges are low so that the overall portion is convex.

The control panel 150 is provided with a wireless communication module (not shown) to allow a manager to send a control signal to the remote controller 160 in a short distance to control the color or intensity of the LED lamp of the LED lamp module 130, The ON / OFF time of the module 130 can be set.

Of course, the control panel 150 may be designed to light the LED lamp according to the illuminance sensor installed outside the solar power LED streetlight 100 or the street lamp post 10.

The lower part of the angle adjusting module 200 is mounted on the upper portion of the lamp fixing part 118 of the main body 110 so that the angle of the solar module 120 can be adjusted in various angles according to the incidence angle of the sunlight. The solar module 120 is mounted on the upper part of the module 200 so that the center of the solar cell 121 of the solar module 120 can be adjusted so as to face the altitude of the sun.

The angle adjusting module 200 includes a first link member 210 having a lower end fixed to the upper portion of the lamp fixing portion 118 of the main body 110 by a fastening bolt 230 such as a screw, And a second link member 220 hinged at one end to the upper end of the solar cell module 210 and fixed to the solar cell module 120 at the other end.

More specifically, the lamp fixing part 118 of the main body 110 is formed with a support hole 115 through which the fastening bolt 230 is penetrated, and the upper part of the lamp fixing part 118 A support 119 protrudes upward along the edge of the support hole 115 and a first support saw 119a is formed along the upper edge of the support 119. At this time, the support portion 119 may have a cylindrical or cylindrical shape protruding upward along the same radius around the support hole 115.

The support portion 119 is formed with a spring support groove 119b for supporting the lower portion of the compression spring 232 for pressing the first link member 210 upward.

The first link member 210 is formed with a spring insertion portion 212 through which the upper portion of the compression spring 232 is inserted in the lower center of the body 211, A female screw portion 213 to which the tightening bolt 230 is screwed is provided and a second supporting tooth 214 is formed at the lower end of the body 211 to mesh with the first supporting teeth 119a. At this time, the fastening bolt 230 may be a conventional screw, a cross bolt, or a wrench bolt which can use a hexagonal wrench. In addition, the washer 234 is fitted to the tightening bolt 230 and is screwed to the female thread 213, so that the female thread 213 can be prevented from being damaged due to excessive tightening of the screw.

The first link member 210 is inserted into the spring insertion portion 212 of the body 211 so as to prevent the compression spring 232 from interfering with the inner circumferential surface of the spring insertion portion 212 when the compression spring 232 is inserted, A cylindrical guide 233 capable of wrapping around the outer circumferential surface of the guide member 232 is inserted and supported. Of course, the lower end of the cylindrical guide 233 is supported by the spring support groove 119b.

According to this structure, when the tightening bolt 230 is properly loosened, the gap between the first and second support teeth 119a and 214 is expanded by the elastic restoring force of the compression spring 232, When the tightening bolt 230 is tightened while the first link member 210 is horizontally rotated in a proper direction, the first and second support gear teeth 119a, 214 are engaged with each other, so that the first link member 210 is fixed to the upper surface of the lamp fixing portion 118 without any further horizontal rotation.

A first support protrusion 216 protrudes from the upper end of the body 211 of the first link member 210 and extends through the center of the first support protrusion 216 in a horizontal direction, A first hinge hole 216a through which the hinge bolt 240 passes is formed in the first hinge hole 216a and a third hinge hole 216b is formed on the other surface of the first hinge hole 216a along the edge of the first hinge hole 216a. Is formed.

The second link member 220 includes a module fixing portion 222 integrally fixed to the solar module 120 by fastening means such as a screw or the like, And a second support protrusion 224 which is in close contact with the first support protrusion 216 of the first link member 210.

A second hinge hole 224a corresponding to the first hinge hole 216a of the first support protrusion 216 is formed at the center of the second support protrusion 224 and the second support protrusion 224 Is provided with a fourth supporting saw tooth 224b along the edge of the second hinge hole 224a. The hinge bolt 240 passes through the first and second hinge holes 216a and 224a of the first and second support protrusions 216 and 224 and then the washer 241 is inserted and screwed into the hinge nut 242 .

According to this structure, when the hinge bolt 240 is loosened properly, the third and fourth supporting teeth 216b and 224b are loosened and the second link member 220 is rotated up and down about the hinge bolt 240 The hinge nut 242 can be adjusted in the direction of the module fixing portion 222 and the hinge bolt 240 is tightened to the hinge nut 242 in a state in which the second link member 220 is rotated up and down in a proper direction, The fourth support teeth 216b and 224b are engaged with each other so that the second link member 220 is no longer rotated and is firmly fixed to the upper end of the second link member 220. [

Hereinafter, an installation process of the solar power LED streetlight of the present invention will be described with reference to FIGS. 1 to 4. FIG.

The fixing protrusion 12 horizontally protruded on the upper end of the street lamp post 10 installed on the road or the like is inserted into the fitting groove 116a of the fixing portion 116 protruding from the rear end of the main body 110, Thereby firmly fixing the main body 110 to the lamp post 10.

The fixing bolt 230 located below the lamp fixing portion 118 of the main body 110 is properly loosened so that even if the operator does not lift the first link member 210, The link member 210 is lifted and the gap between the first and second support teeth 119a and 214 is opened. At this time, if the operator fastens the fastening bolts 23 again after horizontally rotating the first link member 210 in a desired direction, the first and second support teeth 119a and 214 are engaged with each other to be engaged with each other The first link member 210 is firmly fixed to the upper surface of the lamp fixing portion 118 without any further horizontal rotation.

Thereafter, when the hinge bolt 240 is properly loosened, the operator loosens the gap between the third and fourth support teeth 216b and 224b to rotate the second link member 220 up and down about the hinge bolt 240 When the operator rotates the second link member 220 up and down in a suitable direction and rotates the second link member 220 in a desired angle up and down to a suitable angle and then tightens the hinge bolt 240 again, the third and fourth support teeth 216b, 224b are engaged with each other so that the second link member 220 is firmly fixed to the upper end of the first link member 210 without any further rotation.

In this state, the solar module 120 collects the sunlight to produce electric power. The power source is stored in the battery 140, and the control panel 150 controls the LED lamp color or illumination and the LED lamp module 130 The LED lamp of the LED lamp module 130 is turned on by controlling the power supply according to ON / OFF time setting conditions.

Such a structure can adjust the angle of the solar module 120 to a desired direction according to the incidence angle of the sunlight without adjusting the light irradiation direction of the LED module 130 as a whole.

In the present invention, the solar power LED street light 100 can be installed not only in the street lamp post 10 having a height of, for example, 6 to 8 m, but also widely installed on the pole wall or the outer wall of the building And the scope of right of the present invention applies to such a pole or a building as well.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary,

10: street lamp holding 100: LED street lamp
110: main body 118: lamp fixing portion
119a: first supporting saw tooth 120: solar module
130: LED lamp module 140: Battery
150: Control panel 200: Angle adjustment module
210: first link member 214: second support tooth
216: first supporting protrusion 216b: third supporting tooth
220: second link member 222: module fixing portion
224: second supporting protrusion 224b: fourth supporting tooth
230: fastening bolt 232: compression spring
233: Cylindrical guide 240: Hinge bolt
242: Hinge nut

Claims (6)

A solar module 120 provided on the upper side of the main body 110 and an LED lamp module 130 provided in the main body 110 and turned on by a power generated by the solar module 120, In the photovoltaic LED streetlight 100,
The main body 110 has a lamp fixing part 118 protruded in front of the body 111 so that the LED lamp module 130 is mounted on the lower part of the main body 110, And an angle adjusting module 200 for adjusting an angle of the angle adjusting module 200;
The angle adjusting module 200 includes a first link member 210 having a lower end fixed to the lamp fixing portion 118 by a tightening bolt 230 and a second link member 210 having one end hinged to the upper end of the first link member 210, And a second link member (220) coupled to the solar module (120) at the other end thereof;
The lamp fixing part 118 is formed with a support hole 115 penetrating through the fixing bolt 230 so that the edge of the supporting hole 115 is formed on the upper surface of the lamp fixing part 118 The supporting portion 119 protrudes upward and a first supporting tooth 119a is formed along the upper edge of the supporting portion 119;
The first link member 210 has a spring insertion portion 212 formed at a lower center of the body 211 to receive an upper portion of a compression spring 232 for upwardly pressing the first link member 210, The spring insertion portion 212 is provided at its center with a female screw portion 213 to which the tightening bolt 230 is screwed and a second support And a saw tooth (214) is formed on the surface of the solar cell.
delete The method according to claim 1,
The support portion 119 is further formed with a spring support groove 119b for supporting a lower portion of the compression spring 232,
The compression spring 232 is inserted into the spring insertion portion 212 formed in the body 211 of the first link member 210 so as to prevent the compression spring 232 from interfering with the inner circumferential surface of the spring insertion portion 212 when the compression spring 232 is inserted. And a cylindrical guide (233) capable of wrapping around the outer circumferential surface of the solar battery module (232).
The method according to claim 1,
A first support protrusion 216 protrudes from the upper end of the body 211 of the first link member 210;
The second link member 220 includes a module fixing portion 222 to which the photovoltaic module 120 is fixed and a second fixing portion 222 protruding from one end of the module fixing portion 222, And a second support protrusion 224 which is in close contact with the support protrusion 216;
Wherein the first and second support protrusions (216, 224) are hinged by a hinge bolt (240).
5. The method of claim 4,
A first hinge hole 216a is formed at the center of the first support protrusion 216 and a third support tooth 224a is formed on the other surface of the first support protrusion 216 along the edge of the first hinge hole 216a. 216b are formed;
A second hinge hole 224a corresponding to the first hinge hole 216a of the first support protrusion 216 is formed at the center of the second support protrusion 224, A fourth supporting saw tooth 224b is formed along the edge of the second hinge hole 224a on one side of the second hinge hole 224a;
A hinge bolt 240 penetrates through the first and second hinge holes 216a and 224a of the first and second support protrusions 216 and 224 and is screwed to the hinge nut 242, (216b, 224b) are engaged with each other.
The method according to claim 1,
The main body 110 includes a battery 140 storing a power generated by the photovoltaic module 120 with a receiving part 112 formed at the center of the body 111 and a charging power source And a control panel 150 for controlling the LED lamp module 130 to supply the LED lamp module 130 with the control signal;
The main body 110 has a plurality of heat dissipating fins 117 for emitting heat generated when the LED lamp module 130 is lighted on the upper surface of the plate-shaped lamp fixing part 118 protruding forwardly;
The solar cell module 120 has a structure in which a plurality of solar cells 121 are supported on an upper surface of a support frame 122. The solar cells 121 have a convex shape in the center portion And the solar power LED street lamp is characterized in that the solar power LED street lamp is constructed.

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